Machine for molding plastic materials



Aug. 6, 1935. J. M. MccLATcHlE MACHINE FOR MOLDING PLASTIC MATERIALS original Filed sept. 25, '1932 5 shuts-sheet v1 Aug. 6, 1935. J. M. MccLATcHlE 2,010,524

l MACHINE FOR MQLDING PLASTIC MATERIALS original Filed sept.. 25, 1952 e sheets-sheet 2 Aug- 6, 1935. J. M. MccLATcHlE 2,010,524

MACHINE FOR MOLDING PLASTIC MATERIALS lill! INVENTH ATTORNEYS Original Filed Sept. 25, 1932 6 Shee'ts-Sheet 3 Aug'. 6, 1935. J. M. MccLA'rcHlE 1 MACHINE FOR MOLDING PLASTIC MATERIALS original Filed sept. 23, 1952 e sheets-sheet 4 wf/vrai Aug. 6, 1935. J. M. MccLA'rcHlE MACHINE FOR MOLDING PLASTIC MATERIALS original Filed sept. 25, 1932 6 ShetS-Sheet 5 INVENTOR JZ/v /V/V-ZZ Arc/.af ai@ ATTORNEYS Aug- 6, 1935. J. M. MccLATcHlE 2,010,524-

MACHINE FOR MOLDING PLASTIC MATERIALS original Filed spt. 23, 1952 e sheets-sheet 6 v BY @MM ATTORNEYS Patented Aug. 6, 1935 PATENT OFFICE MACHINE FOB HOLDING PLASTIC MATERIALS John M. McClatchie, New York, N. Y., assgnor to The Borden Company, New York, N. Y., a corporation of New Jersey Original application September 23, 1932, Serial Divided andths application August s, 193s, serai No. 634,311;

1s claim. (cl. :1 10) This invention relates to an apparatus for forming or molding into cakes relatively soft or plastic materials, such as cream cheese or other relatively soft cheese, mince-meat or the like, so that the same may be easily wrapped or packed.

This application is a division of my copending application, Serial No. 634,521, iiled September 23, 1932.

One object of the invention is to provide an improved apparatus operating entirely automatically for forming the cakes from a mass of the plastic material and delivering them successively onto a wrapper or onto a support of any desired character. The improved apparatus is provided with an intermittently rotated drum in the periphery of which are molds or recesses for receiving cheese or other soft material from a hopper and forming it into cakes, and with means for delivering the cakes of material successively to the uppermost wrapper in a stack of wrappers. Prior to introducing the material into each mold recess, a paper sheet or lining is inserted in the recess, so Vthat when the formed cake of soft material is delivered from the mold recess, the paper lining will lie on top of the cake. Another object of the invention is to provide the molding apparatus with improved means for preventing leakage between the hopper for containing the mass of plastic material and the periphery of the drum, so that the periphery of the drum will be kept clean and free of the material being molded. To this end the hopper discharges into the molds through a block of soft metal, preferably pure tin, having an inner face shaped in conformity with the curve of the periphery of the drum. Thev block of soft metal is yieldingly held against the drum, and since the two contacting metal surfaces are carefully machined, there is'substantially no leakage between them and no gumming up of the machine at this point. A further object of the invention is to provide the molding machine with improved means for ejecting the cakes of molded material from the molds in the drum. In addition to the usual plunger used in ejecting the material from the mold, a blast of compressed air is directed against the inner face of the sheet of paper or liner in the bottom of th;` mold, thereby assuring that there will be no adherence of the paper to the face of the plunger as the material is discharged from the mold.

Fer the purpose of simplicity of description the substance which is molded by the improved apparates is herein referred to as cheese, it being understood, however, that the mechanism herein described is applicable for use in connection,

the molding machine taken at right angles to Fig. 1, with certain parts shown in section; Fig. 4 is a vertical sectional view through the rotating mold drum and associated parts; Fig. 5 is a side elevation of the parts shown in Fig. 4, looking from the right of Fig. 4; Fig. 6 is a vertical sectional view through the mold drum and associated parts taken at right angles to Fig. 4; Fig. 7 is a view of the channelled face of one of the plungers which ejects the cakesof cheese from the mold recesses; Fig. 8 is a side elevation of the plunger shown in Fig. 7, with the head of the plunger shown in section; Fig. 9 is a rear view of a part of the driving mechanism; and Fig. 10 is a view of the Geneva gear movement for intermittently rotating the mold drum, and showing also the mechanism for intermittently feeding the paper liner which is cut 'into sheets and inserted in the mold recesses.

In the operation of the machine, cheese or other soft material is fed from a hopper into mold recesses which form the cheese into cakes to be wrapped. The hopper in which the cheese is received is shown at 42. Within the hopper is located a spiral vane 43 lwhich is rotated to direct the cheese downwardly and into mold recesses 1, provided in the peripheral ilange 45 of a dru'm 46 which is intermittently rotated.

'I'he drive shaft from which the feeding vane 43 and other mechanism is driven is indicated at 25, a pulley 26 being secured thereon and driven by a belt 21 extending from a motor or other suitable source of power. The shaft 25 drives reducing gearing, not shown in detail since it is of conventional arrangement, but contained within the casing 28 supported on the frame standards 31 clearly shown in Figs. 1, 3, and 9. A shaft 28 is continuously driven by the reducing gearing contained in the casing 28. On the shaft 29 is aisprocket 30 driving a chain 3l extending upwardly and about a sprocket 32, secured at the end of a shaft 33, mounted in bearings 3l, supported on a plate 35 located at the upper end of uprights 36 forming a part of the frame of the machine. At the opposite end of the shaft 33 is secured a bevel gear 38 which meshes with and drives a bevel gear 39 secured at the upper end of a vertical shaft 4l on which the vane 43 is formed. The shaft 48 is mounted in a bearing 4| supported on a plate 4|a and extends downwardly within the hopper 42.

'I'he cheese or other material to be molded is delivered in bulk from a table or other like support 41 into the hopper 42 where it is directed downwardly into the mold recesses 44 by the spiral feeding member or vane 43 during pauses in the intermittent rotation of the drum 46.

At its lower end, the hopper 42 is provided with a contracted or conical portion 48 supported in a bracket 49 on the casing 28, and in which the portion 48 is verticalb adjustable by means of the screws 50. At the lower end of the conical portion 48 of the hopper is a chamber 48a in which is located a member or block 5| having a central opening 52 adapted to align with each. of the mold recesses 44 in the drum 46 to permit the accurate direction of the cheese into them.

The member 5| is preferably made of soft metal, such as block tin, and has its lower curved face 5|a (Fig. 3) resiliently held against the face of the peripheral ange 45 by the pressure of a rubber Washer 5|b (Fig. 3) located between the shoulder 5Ic of the chamber 48a and the upper face of the member 5|. Through this arrangement, the under curved face Sla of the member 5| is held in constant close contact with the face of the peripheral flange 45 of the drum and the possibility of cheese from the hopper getting between the member 5| and the periphery of the drum is prevented.

The drum 46 is secured upon a shaft 53 rotatably mounted in bearings 54 extending from the casing 28. The shaft 53 is intermittently driven by means of a Geneva gear movement of which the slot-wheel 55 is shown in detail in Fig. l0. The wheel 55 is so shaped and slotted that the drum 46 will, during each pause in its rotative movement, align one of the mold recesses 44 with the opening 52 in the member 5| to receive cheese from the hopper. The 7wheel 55 is driven by the shaft 29 on which is an interrupted disk 56 and projecting arm 58 which carries a roller 51, the disk and roller cooperating with the Wheel 55 in the manner well understood to drive it intermittently and impart an intermittent motion to the shaft 53.

Mounted for reciprocating movement in each of the mold recesses 44 is a plunger 59 (Fig. 8), which ejects the cakes of cheese from the molds and successively deposits them upon the top wrapper in a stack indicated at 68. In place of a stack of wrappers a support of any kind may be used. A cake of cheese so deposited on the uppermost wrapper in the stack, is indicated at 6| in Figs. l, 4, and 6. The construction of each of the plungers 59 is shown in detail in Figs. 'I and 8 where it will be seen that it comprises a stem 62 provided with an integral or attached head or plate member. The head of each plunger is so shaped that it closely ilts the interior of its mold recess 44. The head has its outer face formed with air channels 64 connecting with an axial air passage 65 extending through the stem 62 for a part of its length, the end of the passage 65 joining a transverse port 66 extending through the stem.

Each of the phmgers 59 is mounted for reciprocation in a boss 61 formed on the drum 46. The plungers 59 are normally held in retracted posi? tion in the mold recesses, as shown in Fig. 4 (where all of the plungers except the lowermost one are shown in their retracted position), by means of the springs 68, which extend between and attach to plates 69 pivoted on collars 10, one of which is secured to each plunger stem 62.

The drum 46 is intermittently rotated in a counter-clockwise direction, as viewed in Figs. 3 and 4, and before each mold recess 44 is brought into position in register with the hopper outlet for filling, a paper liner or sheet 1| is inserted in the mold recess and brought to rest against the face of the plate or head of the plunger located therein, one of the functions of this sheet being to prevent the cheese from contacting with and sticking to the face of the plunger. These paper sheets or liners 1| are successively cut from a roll 12 and are inserted into each mold when the latter is located beneath the roll 12 during pauses in the intermittent rotary movement of the drum 46.

The roll of paper 12 is mounted on a stud 13 secured in a lug 14 attached to and projecting from the bracket 49. Paper drawn from the roll 12 extends downwardly between a pair oi guide plates 15, 16 supported by brackets 11 and '18, the plates being apertured at 19 to permit feeding rolls 88 and 8| to engage the paper between them and move it downwardly with an intermittent movement. The roll 8| is an idle roll and is supported on a shaft 82 mounted in the bearings 83. Roll cooperating with the roll 8| to feed the paper, is driven with an intermittent motion by means of the mechanism shown in Fig. 10. 'Ihe roll 80 is secured 'on the end of shaft 84, and attached on the shaft adjacent its opposite end is a. ratchet wheel 85 engaged and rotated by pawls 86 carried by the oscillating arm 81 loosely mounted on shaft 84. The required oscillating movement is imparted to the arm 81 by means o1' a link 88 having one of its ends connected at 89 to one end of the arm 81 and its opposite end connected at 90 to a lever 9i which is attached to a collar 92 loosely mounted on the shaft 53. The free end 93 of the lever 9| is operated upon by a cam 94 secured on the shaft 29. Oscillating or rocking movements imparted to the lever 93 by the cam 94 are communicated to the arm 81 by the link 88, causing the pawls 88 to turn the ratchet wheel and thus rotate the roller 80 for a required distance so that it, in cooperation with the roller 8| feeds a section of paper of required length downward between the guide-plates 15 and 16 in timed relation with the intermittent rotation of the drum 46. A spring 95 holds the end 93 of the lever 9| against the cam 94.

The paper fed from the roll 12 after passing between the guide plates 15 and 18, is severed into lengths to form the sheets 1| by means of a cutting device composed of two blades 96 and 91. In Fig. 2 the cutting device is shown in enlarged detail. The blade 91 is fixed to or forms a part of the supporting bracket 18, the blade 96 being pivoted at 98 on the bracket 18 and'having a shearing movement relative to the fixed blade 91 so that it cooperates therewith to sever the paper strip passed between the blades. The shearing movement is imparted to the blade 96 by means of an arm 99 (Fig. 5) pivoted at |00 (Fig. 2) in the bracket 18. At its free end the arm 99 is pro vided with a pin |0| which extends downwardly through a transverse arcuate slot |82 formed in the bracket 18 and is loosely received in an axial slot in the end of the movable cutting blade 96. All. |03 mounted on the pivot pin |00 is connected to the hub of the arm 88 so that an oscillatory movement of the arm |88 will like wise oscillate the blade-operating arm 88. The free end of the arm |08 is connected to one end of a link |05 the other end of which is connected at |06 to the upper end of a cam lever |81 carrying a cam roll |88 movable in a cam groove |08 formed in a cam |I secured on the continuously driven shaft 28. 'I'he cam lever |81 is fixed to a pivot pin I2 ,iournaled in a bracket I secured to the casing 28. The lever |04 being oscillated from the cam ||0 and connected elements, causes the knife-operating lever 88 to impart an oscillatory or shearing movement to -the blade 88 which cooperates with the iixed blade 81 to ,cut of! a section 1 I' of the paper from the roll |2'.`

When the cutting of the paper occurs, one of the mold recesses 44 is so positioned relative to the cutting knife that the severed paper strip is directed into the mold, and is positioned'therein against the face of the plunger head by members ||3 and ||4 located at the upper -end of an oscillatory arm I|5. At its lower end,thearm ||5 is pivoted at IIB on a bracket secured to the casing 28. The arm I|5 is provided with a projecting pin ||8 (Fig. 5) received in a yoke II8 lo- 'cated at the free end of an arm |28 secured to the lower end of a pivot pin |2| mounted in an extension of the bracket 18., Fixed on the upper end of the pin |2| is an arm |22 having its end pivotally attached to a link |28 connected to the upper end of a cam lever |25 mounted at |28 and carrying a roll 21 located in the groove |88 of the cam IIO. As a paper sheet or liner 1| is sev-- ered it is engaged by the fingers |I8`and |I4 and inserted in the mold recess 44 then adjacent to the cutters and is placed against the surface of the plunger head located therein. Consequently, when each of the molds is brought to position below the hopper for filling, the cheese forced into the mold recess is deposited therein on top of the liner 1| previously inserted.

The filled mold recesses are successively brought to a position above the wrapper stack 88 and the cakes of cheese formed in the mold recesses and indicated at 6| are there ejected together with the paper 1|, as clearly shown at the'lower portion of Fig. 4; the cake and paper so ejected being deposited upon the uppermost wrapper of the stack. 'I'he ejection of the cakes is effected by lever |28 iixed to the pivot pin ||2 and provided at its free end with an adjustable tappet |28 (Fig. 6), which is brought into contact with the end of the stems 82 of the respective plungers to force the plunger head out of the mold to cause it to eject the cake of cheese 5|. The lever |28 is oscillated by the pivot pin l I2 through the cam lever I 01. A bracket |30 formed with an inturned end |3| (Fig. 6) issecured on the lever |28, the inturned end of the bracket contacting with and drawing upwardly on the collar I0 on the upward movement of the lever |28, to aid the springs 88 in drawing the plunger back into the mold to its retracted position after it has ejected the cake of cheese.

To aid in freeing the paper-covered upper face of the cake of cheese from its adherent engagement with the face of the plunger as the plunger deposits the cake on the stack of wrappers, an air blast is used. The air blast may be obtained from any suitable source, not shown, and is delivered through a tube I 82 connected to a boss |88 mounted on the casing 28 as shown in Fig. 6. A nipple |34 slidingly mounted in the boss |88 has one of its ends resiliently held by a spring |88 against the race of an annulus |88 secured on the back of the drum 48. Spaced ports |81 are provided in the annulus, and leading from each of these ports is a tube |88 which connects a port |81 with'a port |88 provided in each of the bosses 81 of the drum 48. When one of the ports |31 is in register with the nipple |34 an air blast delivered therethrough will pass through the connected tube |88 to the corresponding port |38. The nipple |84 is so positioned relative to the molds on the drum that the air blast is directed through the boss 61 of the lowermost mold, that is, that mold which is positioned over the wrapper stack and has forced a cake of cheese out of the mold.

' When the plunger moves out of the mold, as shown in Fig. 6, the cake of cheese usually falls by gravity upon the uppermost wrapper in the stack. To insure the delivery of the cake of cheese on the wrapper stack and to prevent any possible adherence between the cake 5| and sheet 1| and the face of the plunger, the air blast is exerted through the plunger when it has reached the limit of its downward movement out of the mold. When the plunger reaches this position, by the downward pressure of the lever |28, the transverse port $8 in that plunger stein is brought into register with the port |89 in the boss 61. Theair blast directed through the plunger stem and through the channels 64 in the plunger, acts against the sheet 1| and assures the deposition of the cake of cheese and thesheet 1|, with the paper sheet uppermost, on the top wrapper in the stack 88.

Ihe bosses 81 are also provided with exhaust ports |40 which are so positioned relative to the transverse ports 86 in the plunger stems 62 that when the plungers are in their retracted positions in the mold recesses, the ports 66 inthe plunger stems are in register with the ports |40 in the bosses, as indicated in the upper portion of Fig. 6. Consequently, when the cheese is forced from the hopper and into the mold then positioned beneath it, the air displaced from that mold by the entry oi' the cheese therein is exhausted through the connected ports 65, 66 and |40.

The `wrappers contained in the stack 60 are made of foil, paper, or other material suitable for the purpose of enclosing and protecting the cheese. 'Ihese wrappers are larger in size than the cakes of cheese deposited on them so that when a cake of cheese is received upon a wrapper held iiatwise in the stack, there are lateral edge portions on the wrapper extending beyond the sides and ends of the cake, these' lateral edge portions being later folded about. the cake by wrapping means. The stack of wrappers is held between vertical guides I4| and is forced upward by a follower plate |42 having a dependent stem |43 vertically guided in a bracket |44. A lug |45 extending from the bracket, supports a roller |46 which is under the torsional pull of a contained spring, and which tends to drawgupward on a strap |41 having one of its ends attached to the peripheral face of the roller |4 and its other end attached to a plate |48 secured to the lower end of the stem |43. By this mechanism the wrappers in the stack 60 are constantly elevated so that the uppermost wrappers thereinare held against pins |49 which penetrate through several wrappers in the upper part of the stack.. These pins are supported in members |50 secured on a fixed part of the machine frame and positioned to overlie the Wrapper stack.` The supporting members A|50 also carry rolls III which rest upon theuppermost wrapper in the stack and from beneath which the wrappers are successively drawn to remove them from the stack.

While a stack of wrappers is shown for receiving successive cakes of cheese, it will be understood that the cakes may, if desired, be deposited upon any fixed or moving support from which they may be taken and boxed, wrapped, or otherwise handled.

Briey, the operation of the apparatus is follows:

The drum 46 which is rotated intermittently, locates one of the mold recesses 44 in position relative to the paper-cutting knives 96 and 91 each time a pause in the rotative movement of the drum occurs, so that a strip or sheet 'Il cut from the paper roll 'i2 is delivered into the mold recess so located. The arm H5, swung toward the periphery 45 of the drum, directs the paper sheet 'H into the mold recess and positions it against the head of the plunger 59 located therein. The arm H5 is then swung away from the drum and the drum moves the mold recess, within which the paper sheet 1| has been placed, to a position beneath the hopper and in register with the opening 52 in the block 5 I, to be filled with cheese. In this way, each of the mold recesses receives a sheet 1l and a filling of cheese. As the drum continues its rotative movement, the filled molds are carried successively to a position above the wrapper stack 60 where each cake of cheese 60 and the accompanying paper sheet 1| is ejected from a mold recess by the action of the plunger 59 under the pressure of the lever |28, the ejection of the cheese and its separation from the plunger head being assured by the air blast directed through the ports 65 and 66 in the plunger against the sheet 1I.

What I claim isz- 1. A machine of the character described provided with a. hopper, an intermittently rotated mold-carrying member having mold recesses for receiving material from the hopper and forming it into cakes, a soft metal member located in the hopper, means for resiliently urging said soft metal member against the periphery of the moldcarrying member, the soft metal member being provided with an aperture through which material is forced from the hopper, a roll of paper and means for supporting the same, means for intermittently feeding the paper from the roll, cutting means for severing successive paper sheets from the roll, a swinging arm carrying means for positioning a sheet of paper in each of the mold recesses before it is filled with material from the hopper, a plunger operative in each mold recess for ejecting the contents in cake form from the mold recess together with the paper sheet previously placed therein, and a support on which the ejected cakes and sheets are successively received. Y

2. In a machine of the class described, a hopper, a mold-carrying member mounted to rotate relative to the hopper, mold recesses provided in the mold-carrying member adapted to be filled with material from the hopper, a plunger mounted in each of the mold recesses, means for normally retracting the plungers within the mold recesses, each of the plungers having a stem formed with an air passage, a portion of said air passage extending transversely through the stem, means for successively forcing each pllmger out of its mold recess to cause the contents of the mold recess to be ejected, means for forcing an air blast through the air passage in the plunger stem and against the cake when the plunger is forced out of its mold recess, plunger guides located on the mold-carrying member, and ports in the plunger guides adapted to register with the transverse portions of the air passage in each plunger stem while the plungers are in their retracted positions to permit air expulsion While the mold recesses are being lled.

3. In a machine of the character described, a hopper provided with an outlet opening, means in the hopper for feeding the contents of the hopper out of the outlet opening, a rotary moldcarrying member positioned relative to the hopper opening to receive hopper contents, a peripheral flange on the mold-carrying member, an apertured block disposed in the hopper outlet opening and provided with a curved face in contact with the ilange, resilient means for urging the block against the ange, molds on the moldcarrying member, means for feeding a paper sheet into each of the molds before the mold is lled from the hopper, a support and means for ejecting each cake and paper sheet from each mold so that the cake is received on the support with the paper sheet positioned on top of it.

4. In a machine of the character described, a hopper provided with a conical outlet opening for containing plastic material, an enlarged chamber extending from the conical opening and provided with shoulder portions, a soft metal block disposed in the chamber, a rotary mold-carrying member positioned relative to the hopper to receive hopper contents, an apertured peripheral flange formed on the mold-carrying member, the block having a curved face'in contact with the harige, a resilient washer located between the shoulder portions and the block for resiliently urging the block against the flanges, means on the mold-carrying member for forming the material received from the hopper into cakes, and means for ejecting the cakes.

5. In a machine of the character described, a hopper for containing plastic material and provided with an outlet opening, a rotary moldcarrying member having a peripheral flange in which the molds are located, said flange being positioned adjacent the outlet of the hopper, an apertured block of soft metal located in the outlet of the hopper, said block having a face formed to make a snug fit with the peripheral flange and means for urging the block against the ange.

.6. In a machine of the character described, a hopper provided with an outlet opening for containing plastic material, shoulder portions surrounding the opening, a soft metal block disposed in the hopper outlet opening, a rotary mold-carrying member positioned relative to the hopper opening to receive hopper contents, a peripheral flange formed on the mold-carrying member, the block having a. curved face in contact with the flange, resilient means located between the shoulder portions of the hopper and the block for urging the'block against the flange, and molds on the mold-carrying member for forming the material received from the hopper into cakes.

'1. In a machine of the character described, a hopper provided with a contracted outlet opening for containing plastic material, an intermittently operated rotary mold-carrying member movable relative to the hopper and provided with formed to make a snug ing member, means for inserting Paper sheets in the apertures in the mold-carrying member, and means for forcing the hopper contents into said apertures on top of the sheets therein to form the material into cakes.

8. In a machine for molding plastic material including an intermittently rotating member having mold recesses in its periphery, means located above the mold-carrying member for filling the molds successively with plastic material and plunger means for ejecting the molded material from the molds, means for inserting a sheet of paper in each mold previous to the illling thereof, said means comprising means for supporting in vertical position a strip of paper with its lower end opposite the empty mold next to be lled, means for cutting a sheet from the end of the strip of paper, and means for pushing the severed sheet into the mold.

9. In a machine for molding a plastic material including an intermittently rotating drum having a plurality of mold recesses in its periphery, means located above the drum for filling the uppermost mold recess with plastic material while the drum is `stationary and plunger means for ejecting the molded material from the mold, means for inserting a sheet of paper in the empty mold recess following the mold being lled, said means comprising means for supporting in vertical position a strip of paper with its lower end opposite the empty mold next to be illled, means for cutting off a sheet of paper from the strip and means for pushing the severed sheet into the mold.

10. In a machine for molding plastic material including a rotary mold-carrying member having a. peripheral flangein which the molds are located, a hopper for containing plastic material located adjacent the mold-carrying member and having an outlet opening adapted to register with the molds successively, an apertured block of pure tin located in the outlet of the hopper, the aperture in said block of tin being of the same shape and size as the molds, said block having a face nt with the peripheral ilange, and means for ejecting the block against the flange. i

11. In a machine for molding plastic material, a rotary drum having mold recesses in its periphery, a plunger in each mold having air channels in its face and having a stem provided with a passageway communicating with the channels,

means for reciprocating the plunger in the molds, means for feeding plastic material into the molds, means for placing a sheet of paper against the channel tace of each plunger previous to the Iilling of its respective mold, the machine having an orice communicating with a source of air under pressure, and air passageways on the drum corresponding to the plungers and arranged to connect the orice and the passageway of a plunger when the latter has ejected a cake of molded material.

12. In a machine for molding plastic material. a hopper, a mold-carrying member mounted to rotate relatively to the hopper, mold recesses provided in the mold-carrying member adapted to be lled with material from the hopper, a plunger mounted in each of the mold recesses, means for normally retracting the plungers within the mold recesses, each of the plungers having a stem formed with an air passage, a portion of said air passage extending transversely through the stem, means for successively forcing each plunger out of its mold recess to cause the contents of the mold recess to be ejected, means for forcing an air blast through the air passage in the plunger stem and against the cake when the plunger is forced out of its mold recess, plunger guides located on the mold-carrying member provided with ports, and an air passageway on the drum arranged to communicate with the source of air under pressurewvhen a plunger is in ejecting position, the transverse passage in the stem of the plunger in ejecting position registering with the port of its plunger guide when the plunger has ejected the plastic material from the mold.

13. In a machine for molding plastic material, a hopper having a discharge opening, a rotary drum located adjacent the opening of the hopper, mold recesses in the periphery of the drum adapted to register with the hopper opening, a. plunger mounted in each mold, means for reciprocating the plunger in the molds, each plunger having a stem formed with an air passage, a portion of said air passage extending thansversely through the stem, and plunger guides located on the moldcarrying member provided with ports adapted to register with the transverse portions of the air passage in each plunger while the plungers are in their retracted positions in the molds to permit air expulsion while the molds are being lled.

JOHN M. MCCLATCHIE. 

